KR20120019112A - Gudle doctor system - Google Patents

Abstract

PURPOSE: A construction method for a uniform and continuous heating system in a building is provided to reduce dew condensation by reducing a temperature difference between indoor and outdoor. CONSTITUTION: A construction method for a uniform and continuous heating system in a building is as follows. Finishing mortar is coated with a material having a thermal conduction rate of less than 0.1Kcalm2HC using a roller or a brush to cut off radiant heat and store heat between hot water pipes. An insulating and waterproofing material is spread on the finishing mortar to prevent supplied heat from emitting to the inside a building.

Description

Even heating and continuous heating construction in buildings requiring heating {gudle doctor system}

Regenerative Hot Water Heating System

The present invention relates to a heat storage type hot water heating system, and more particularly, by forming a hot water pipe in a vertical double pipe structure and preserving the gravel layer in which the hot water pipe is buried as it is, it is possible to improve heating efficiency by high heat storage effect. With floor shock

The present invention relates to a regenerative hot water heating system that can improve heating efficiency of a product and prevent heating by reducing overheating costs, as well as easy piping work of a hot water pipe, so that heating work can be performed quickly with fewer hands.

The hot water heating system is configured to heat the interior of the house by transferring heat to the floor by allowing the water heated by the hot water boiler to pass through a hot water pipe installed at the bottom of the house.

The hot water heating system is a heating method currently used in detached houses and apartments that are constructed in Korea, and takes a unique form that is hardly exemplified in the world.

Thus, the configuration of the floor heating system using hot water is composed of various materials having a function to effectively use the heat radiated from the hot water pipes for heating, centering on the hot water pipes dissipating the heat source.

In order to effectively satisfy these functions, it is necessary to construct the ondol layer using materials suitable for the functions of each component layer. However, in the case of hot water heating system which is currently being constructed in general, various problems are generated, thereby approaching the problem of lowering of heating efficiency and inefficient use of energy.

In addition, since the hot water pipes are conventionally arranged in a single layer on the floor, the heating efficiency is not only decreased, but a large temperature deviation occurs between the upper part of the pipe and the central part of the pipe during heating, causing thermal discomfort to the residents. Since the heating is performed using the bay, the heating duration is short when the hot water supply is stopped by the operation of the hot water boiler.

In addition, when the hot water pipes are arranged in a zigzag, it is difficult to arrange them at a uniform pitch because the hot water pipes are bound to the wire mesh by thin wires, and it is difficult to warm the floors evenly and the piping work takes a lot of time.

Thus, the hot water pipe is double-layered pipe with high and low so that it can circulate low temperature hot water while providing rapid heating and continuous heating, so that it can be quickly heated by the hot water pipe buried in the upper part and continuous heating by hot water pipe buried in the lower part. (Patent Application No. 20-2003-0008378, etc.)

 As a result of the experiment by the Korea Institute of Construction Technology, the temperature difference between the hot water pipe and the hot water pipe buried in the upper part was measured below 1.7 ℃, and after 2 hours, the average temperature of the floor was kept above 30 ℃.

 The temperature difference between the hot water pipe embedded in the upper part and the hot water pipe could be remarkably reduced by the hot water pipe embedded in the lower part, and evenly it could be heated evenly and continuously, but the room temperature was 18 ℃ ~ It is impossible to keep it below 20 ° C. Therefore, by adopting a material with a thermal conductivity of 0.1Kcal㎡HC or less on the finishing mortar, the radiator blocks the radiant heat by coating it with a roller or brush with 0.5 ~ 1mm or less and evenly accumulates heat by conduction heat between the hot water pipe and the hot water pipe. The floor temperature was adjusted to fit the body shape.

>> Description of the composition and function of the invention

 Applying a water-repellent insulation and waterproofing material (Patent No. 0418192) on the finishing mortar, the final process of floor heating work, to prevent heat from being dissipated to the room by preventing heat from being radiated to the room. By reducing the operating time of the boiler, it also saves the fuel used and maintains the healthy floor temperature and the healthy indoor temperature.

 The water-proof function prevents moisture from penetrating into the floor during the off-season, which makes it evenly warm when the boiler is heated.

`` As a result of the experiment, the air warmed from the warm floor caused convection to maintain a comfortable interior space, and the temperature difference with the outside temperature was significantly reduced because the existing upper temperature of the wall was less than 25 ℃, which reduced the condensation phenomenon. ''

The results of Doohan's fever were confirmed, and the experimental results showed that the warmed air in the warm floor caused convection to maintain a comfortable interior space. By reducing the condensation could be reduced.

It combines the wise ancestors of ancestors with the advantages of modern heating and can predict the effects of healthy heating and energy savings.

1) Sectional view of wet ondol system
2) cross section configuration diagram
3), 4) Floor surface temperature distribution by infrared thermal measurement after 2 hours of hot water supply

No description

Claims (1)

Existing Patent (Application No. 20-2003-0008378) It adopts a material with a thermal conductivity of 0.1Kcal㎡HC or less on the finishing mortar and cuts radiant heat by coating with a roller or brush with 0.5 ~ 1mm or less and conduction heat between hot water pipe and hot water pipe. To ensure uniform heat storage.

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